Title :
Active noise cancellation with a fuzzy adaptive filtered-X algorithm
Author :
Chang, C.-Y. ; Shyu, K.-K.
Author_Institution :
Dept. of Electron. Eng., Ching Yun Inst. of Technol., Chung-li, Taiwan
Abstract :
The authors present a fuzzy adaptive filtered-X algorithm for active noise cancellation (ANC) in ducts, using fuzzy rules to construct an anti-noise filter to cancel out the undesired noise. Complex acoustic plant models, such as those used in conventional ANC systems, can be disregarded in the proposed fuzzy technique. As a new method for ANC, the proposed system tunes the free parameters automatically and changes the IF-THEN rules adaptively to minimise the residual noise as new information becomes available. Hence, the proposed algorithm can be easily constructed at the beginning, and the complexity of building an ANC system can be reduced. Direct numerical simulations demonstrate the effectiveness of the proposed design
Keywords :
active noise control <cancellation, fuzzy adaptive filtered-X algm.>; adaptive filters <act. noise cancellation, fuzzy adaptive filtered-X algm.>; convergence of numerical methods <act. noise cancellation, fuzzy adaptive filtered-X algm.>; filtering theory <act. noise cancellation, fuzzy adaptive filtered-X algm.>; fuzzy set theory <act. noise cancellation, fuzzy adaptive filtered-X algm.>; least mean squares methods <act. noise cancellation, fuzzy adaptive filtered-X algm.>; random noise <act. noise cancellation, fuzzy adaptive filtered-X algm.>; transfer functions <act. noise cancellation, fuzzy adaptive filtered-X algm.>; IF-THEN rules; active noise cancellation; active noise controller; adaptive filter; antinoise filter; ducts; fuzzy adaptive filtered-X algorithm; fuzzy rules; least mean square algorithm; minimised residual noise; numerical simulations; reduced complexity; transfer functions;
Journal_Title :
Circuits, Devices and Systems, IEE Proceedings -
DOI :
10.1049/ip-cds:20030406
